Role of Pptl in multiple stress responses in Candida albicans

To study the function of CaPptl, we deleted PPT1 gene from the Candida albicans genome by sequentially replacing the entire coding region with the selectable markers ARG4 and HIS1. The results showed that the deletion of Pptl did not affect the hyphal formation of C. albicans under serum induction a...

Full description

Saved in:
Bibliographic Details
Published in中国科学通报:英文版 no. 31; pp. 4060 - 4068
Main Author Kangdi Hu Wanjie Li Jiaxin Gao Qizheng Liu Haitao Wang Yue Wang Jianli Sang
Format Journal Article
LanguageEnglish
Published 2014
Subjects
DNA损伤
基因组
应激反应
流式细胞分析
白色念珠菌
编码区
胁迫条件
选择性标记
Online AccessGet full text

Cover

More Information
Summary:To study the function of CaPptl, we deleted PPT1 gene from the Candida albicans genome by sequentially replacing the entire coding region with the selectable markers ARG4 and HIS1. The results showed that the deletion of Pptl did not affect the hyphal formation of C. albicans under serum induction and caused enhanced sensitivity to DNA damage, Calcofluor white and salt- induced stress. We also found that Pptl was not required for the phenotypic response of cells treated with the genotoxins, methylmethane sulfonate and hydroxyurea. Flow cytometric analyses indicated that pptlA cells and wild-type cells showed similar G2/M arrest profiles when exposed to DNA damage stress. Pptl was not required for the activation of the DNA damage response pathway, as indicated by normal phosphorylation of Rad53 and Rfa2 in pptlA cells under DNA damage stress. We suggest that Pptl plays important roles in response to various stress conditions in C. albicans.
Bibliography:To study the function of CaPptl, we deleted PPT1 gene from the Candida albicans genome by sequentially replacing the entire coding region with the selectable markers ARG4 and HIS1. The results showed that the deletion of Pptl did not affect the hyphal formation of C. albicans under serum induction and caused enhanced sensitivity to DNA damage, Calcofluor white and salt- induced stress. We also found that Pptl was not required for the phenotypic response of cells treated with the genotoxins, methylmethane sulfonate and hydroxyurea. Flow cytometric analyses indicated that pptlA cells and wild-type cells showed similar G2/M arrest profiles when exposed to DNA damage stress. Pptl was not required for the activation of the DNA damage response pathway, as indicated by normal phosphorylation of Rad53 and Rfa2 in pptlA cells under DNA damage stress. We suggest that Pptl plays important roles in response to various stress conditions in C. albicans.
11-1785/N
Candida albicans ; Pptl ; DNA damagestress ; Cell cycle ; Rad53 ; Rfa2
ISSN:1001-6538
1861-9541